Intro & Parallel Computing

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Amdahl's Law (Sequential)

'a' is the runtime a sequential program spends on non-parallel computation segments, so S=1/a

Disadvantages of Distributed Memory

- Communication btwn processors decided by programmers - Hard to map existing data structures to memory - Non-uniform memory access times

Properties of Distributed Systems

- Heterogeneity - Openness - Scalability - Transparency - Concurrency - Continuous availability - Independent failures

Disadvantages of Shared Memory

- Lack of scalability btwn memory/CPUs - Programmer needs to correctly access memory

Four categories of computing systems

- SISD - SIMD - MISD - MIMD

Advantages of Distributed Memory

- Scalable - Processor has quick access to its own memory - Cost effective

Hybrid Distributed-Shared Memory

- Shared & Distributed memory architecture - Shared memory machine & GPU - Network communications required to move data

Advantages of Shared Memory

- User friendly programming perspective to memory - Fast/uniform data sharing between tasks

Parallel computing resources are typically....

- a single computer w/ multiple processors/cores - any number of computers connected by a network

Why use parallel computing?

- saves time & money - solve larger/complex problems - provides concurrency

For speedup = 1/(P/N)+(1-P); P/N = ??

0

What 2 elements characterize a distributed system?

1. Composed of multiple independent components 2. Components seen as a single entity by users

3 Parallel programming approaches

1. Data parallelism 2. Process parallelism 3. Farmer-and-worker model

Hadoop Components

1. Distributed File System (HDFS) 2. MapReduce Framework

3 Major milestones that led to cloud computing

1. Mainframes 2. Clusters 3. Grids

MapReduce Data Flow

1. Mappers read input from HDFS 2. Output is partitioned by key and sent to Reducers 3. Reducers sort input 4. Reduce output is written to HDFS

Mainframes

1st example of large computing facilities that leverage multiple CPUs

Distributed system

A collection of independent computers that appear as a single system to users

Hadoop Distributed File System (HDFS)

A highly distributed, fault-tolerant (3x) file system designed to manage large amounts of data at high speeds.

Heterogeneity

A system made of many different parts/CPUs

Virtualization

Abstracts - Hardware - Runtime environments - Storage - Networking

Grid

Aggregation of clusters

Shared memory MIMD systems

All PEs are connected to a single global memory and they all have access to it

Distributed memory MIMD systems

All PEs have a local memory

MapReduce

App programing model developed by google that processes data w/ Map() and Reduce()

How does parallel programming work?

By dividing a sequential program into small chunks so each processor can work on separate chunks of the problem

Parallel Computing

Calculations of large problems are divided into smaller parts and executed simultaneously on different processors

What is a low-cost alternative to mainframes/super-computers?

Clusters

What should happen when Silicon-based processor chips reach their physical limits?

Connect multiple processes working in coordination with each other => Parallel computing

Service orientation

Core reference model that is rapid, low-cost, flexible, interoperable, and evolving

Is the Word Count Execution example data parallelism or task parallelism?

Data Parallelism

Are the following tasks Data Parallelism or Task Parallelism? def mapper(line): foreach word in line.split(): output(word, 1) def reducer(key, values): output(key, sum(values))

Data Parallelism (same functions every time, different data)

Data parallelism

Data partitioned into several blocks which are processed in parallel

What can happen as a result of race conditions?

Deadlocks & Live locks

Clouds

Deployed in large datacenters w/ virtually unlimited resources

Quality of Service (QoS)

Functional & nonfunctional attributes used to evaluate a service

What should be done to prevent race conditions?

Implement locks/semaphores/monitors to ensure serial access

Web 2.0

Interactive, dynamic web pages

Coarse-grain parallelism

Large blocks of code executed in parallel

Threads

Lightweight subtasks

Is the speed-up of applications with fine-grain parallelism lower or higher than that of coarse-grained parallelism?

Lower

Cluster

Machines connected over the network and managed by a server; cheaper than mainframe

Same Program Multiple Data (SPMD)

Multiple copies of the same program run concurrently, each on a different data block

Non-Uniform Memory Access (NUMA)

Multiple groups of memory shared by multiple CPUs (via Bus Interconnect)

Shared memory

Multiple processors operate independently, but share the same memory resources

Multiple-instruction, single-data (MISD) systems

Multiprocessor machine that executes different instructions on different PEs for the same data set

Multiple-instruction, multiple-data (MIMD) systems

Multiprocessor machine that executes multiple instructions on multiple data sets. - Shared-memory & Distributed-memory

Single-instruction, multiple-data (SIMD) systems

Multiprocessor machine that executes the same instruction on all the CPUs for different data streams

Bit level parallelism

Number of bits per clock cycle, often called a word size, increased gradually from 4-bit, to 8-bit, 16-bit, 32-bit, and to 64-bit

Uniform Memory Access (UMA)

One group of memory shared by multiple CPUs

Serial computing uses ______ processor, but parallel computing uses ________ processors.

One; multiple

Mutual Exclusion

Only 1 process can access shared data in a critical region at a time

Apache Hadoop

Open-source framework that processes large data sets

Semaphore - wait() or down() value

P()

Amdahl's Law - If none of the code can be parallelized, then P=__ and speedup=__

P=0, speedup=1

Amdahl's Law - If all the code can be parallelized, then P=__ and speedup=__

P=1, speedup=infinite

Manjrasoft Aneka

PaaS that supports app development & runtime environments

Amdahl's Law (Parallel)

Potential program speedup is defined by the fraction of code (P) that can be parallelized, so S=1/(1-P)

Livelock

Process states constantly change in regard to each other, so none progress

Atomic operation

Process that completes without interruption

Parallel Processing

Processing multiple tasks simultaneously on multiple processors

Parallel Programming

Programming a multiprocessor system to use the divide-and-conquer technique

Why use bit level paralleism?

Reduces number of instructions required to process large operands & Improves performance

Distributed Memory

Requires a communication network to connect each processor with their own local memory

If using a personal computer and a deadlock occurs, how can you escape it?

Restart the computer

Gustafson's Law Formula

S(N) = N - a(N-1)

speed-up formula

S(N) = T(1)/T(N) >>>> S = 1/alpha

Force.com & Salesforce.com

SaaS solution for social enterprise apps & customer relationship management

Google AppEngine

Scalable runtime environment for web apps

Gustafson's Law

Scaled speed-up with N parallel processes

In what order are machine instructions processed for SISD systems?

Sequentially

Semaphore

Shared counter that can be used to implement locks

Hardware Virtualization

Simulates hardware interface & allows different software stacks to coexist on the same hardware

Fine-grain paralleism

Small blocks of code executed in parallel without the need to communicate or sync with other threads/processes

Web Services (WS)

Software components accessible over (HTTP)

In Aneka, developers can choose different abstractions to design their app such as:

Tasks, distributed threads, & map-reduce

What is the primary purpose of distributed systems?

To share & better utilize resources

T/F: A semaphore should be initialized to a non-zero value (ex: 1)

True

T/F: In Shared memory, changes in a memory location effected by one processor are visible to all other processors

True

T/F: In a time-shared or multi-processing system the exact instruction execution order cannot be predicted.

True

What have shared memory machines historically been classified as, based upon memory access times?

UMA & NUMA

Single-instruction, single-data (SISD) systems

Uniprocessor machine that executes a single instruction on a single data stream

Semaphore - signal() or up() value

V()

Microsoft Azure roles

Web role Worker role VM role

Deadlock

When 2 or more competing actions each wait for the other to finish, so neither ever does

Race Conditions

When multiple processes access shared data w/o access control and the final result depends on execution order

Web Service Description Language (WSDL)

XML language that defines characteristics of a service

Simple Object Access Protocol (SOAP)

XML language that defines how to invoke a Web service method and collect the result

Are there limits to the scalability of parallelism?

Yes

T(N)

execution time of N parallel computations

T(1)

execution time of sequential computation

The larger the Parallel portion, the ___________ the speedup

higher

In Parallel computing, increased problem size results in _____________

increased performance

A Service is...

loosely coupled, reusable, programming language independent, location transparent

speed-up S

measures effectiveness of parallelization

speedup=1 means....

no speedup

Software has traditionally been written for _____________

serial computation

Introducing the number of processors performing the parallel fraction of work, the relationship for speedup is modeled by:

speedup = 1/(P/N)+S P=parallel fraction; N=# of processors, S=serial fraction

Amdahl's Law - If 50% of the code can be parallelized, then maximum speedup=__

speedup=2, so it will run twice as fast

Processes

subtask of a parallel program


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